Ontology-based collaboration in design. The design process of a building project establishes function, form and performance for the final building. When multiple participants from varying professions are involved there is a serious problem in coordinating, communicating, and locating information around each design decision. Establishing an ontology for this process, and using this ontology to structure all participant communication, will allow the requisite information from all participants to b ....Ontology-based collaboration in design. The design process of a building project establishes function, form and performance for the final building. When multiple participants from varying professions are involved there is a serious problem in coordinating, communicating, and locating information around each design decision. Establishing an ontology for this process, and using this ontology to structure all participant communication, will allow the requisite information from all participants to be considered for each design decision. This will greatly reduce rework and poor design decisions based on missed information. It will also ensure that participants are aware of all related information for their particular design tasks.Read moreRead less
Digital Outsourcing in Architecture: Opportunities for Australian Firms or Perils for Australian Workforce? This research will help assess competitiveness and viability of different digital outsourcing practices in connection to the needs, the operative conditions and the products of the Australian building design sector. The information will give industry analysts a tool to identify the markets within which these arrangements are likely to spread or occur in the future, and take consequent corr ....Digital Outsourcing in Architecture: Opportunities for Australian Firms or Perils for Australian Workforce? This research will help assess competitiveness and viability of different digital outsourcing practices in connection to the needs, the operative conditions and the products of the Australian building design sector. The information will give industry analysts a tool to identify the markets within which these arrangements are likely to spread or occur in the future, and take consequent corrective or supportive action. The outcomes of this project will benefit Australia by forecasting changes in professional employment prospects, and by providing a framework to consider development scenarios for architectural educational and professional institutions, national research and development priorities, and international trade agreement agendas.Read moreRead less
Gravitating relativistic material bodies: A mathematical analysis. This project aims to establish the local-in-time existence and geometric uniqueness of solutions to the Einstein-Elastic equations representing systems of gravitating relativistic material bodies, and to understand the long-time behaviour of these solutions. In spite of their importance to astrophysics, almost nothing is known about the mathematical properties of solutions to the equations of motion governing gravitating systems ....Gravitating relativistic material bodies: A mathematical analysis. This project aims to establish the local-in-time existence and geometric uniqueness of solutions to the Einstein-Elastic equations representing systems of gravitating relativistic material bodies, and to understand the long-time behaviour of these solutions. In spite of their importance to astrophysics, almost nothing is known about the mathematical properties of solutions to the equations of motion governing gravitating systems of relativistic material bodies. This project would provide mathematical tools for the study of gravitating relativistic material bodies and provide guidance on developing stable numerical schemes for simulations that are essential for comparing theory with experiment. This would significantly improve current understanding of the behaviour of matter and gravitational fields near the matter-vacuum boundary of bodies and help understanding of the physics of these boundaries.Read moreRead less
A Transdimensional Approach to Gravitational-Wave Astronomy. This project uses ripples in the fabric of spacetime––gravitational waves––to understand the cosmos and the fundamental nature of reality. We aim to discover new sources of gravitational waves from exploding stars. Using gravitational waves from colliding black holes, we aim to uncover new physics beyond Einstein's theory of general relativity. To achieve these goals we will develop tools from the cutting-edge of data science.
Gravitational wave astrophysics with Laser Interferometer Gravitational-Wave Observatory (LIGO). The prediction that space and time vibrate is one of Einstein's greatest legacies, implying the existence of a new form of radiation with which to study the Universe. This project puts Australia in the vanguard of the billion-dollar effort worldwide to detect and harness this radiation for the first time.
A special talent for technological innovation? Analysing the other public function of the Australian Parliament House. Major projects build lessons for the future and draw upon past lessons. Australia's New Parliament House represents a building of enormous scale and complexity, constructed within a tight time period, which provided unprecedented opportunities for Australia's construction industry to examine and transform its own practices. By producing a detailed history of the procurement proc ....A special talent for technological innovation? Analysing the other public function of the Australian Parliament House. Major projects build lessons for the future and draw upon past lessons. Australia's New Parliament House represents a building of enormous scale and complexity, constructed within a tight time period, which provided unprecedented opportunities for Australia's construction industry to examine and transform its own practices. By producing a detailed history of the procurement process of the building and a systematic assessment of its industrial influence over time, this research project will amplify the importance of intellectual investment made through technical innovation in public buildings. The project will also help Australia maximise its creative and technological capacity by understanding and accepting factors conducive to innovation.Read moreRead less
Precision cosmic expansion in the era of gravitational-wave astronomy. The disagreement in the size of the cosmic expansion rate, between measurements from local galaxy indicators and predictions from the early Universe, is a crisis for cosmology. This Project aims to resolve this situation using recent scientific breakthroughs in both observations and theory. We will optimise expansion measurements from the standard sirens discovered by gravitational-wave astronomy by accurate modelling of th ....Precision cosmic expansion in the era of gravitational-wave astronomy. The disagreement in the size of the cosmic expansion rate, between measurements from local galaxy indicators and predictions from the early Universe, is a crisis for cosmology. This Project aims to resolve this situation using recent scientific breakthroughs in both observations and theory. We will optimise expansion measurements from the standard sirens discovered by gravitational-wave astronomy by accurate modelling of the cosmic velocity field which limits this analysis. And we will use recent breakthoughs in numerical general relativity to explore the influence of space-time curvature variations on these measurements. We will hence improve our understanding of the most important parameter describing the Universe, and its physics.Read moreRead less
An upgraded pulsar timing array for gravitational wave detection. Millisecond pulsars are remarkably regularly-rotating neutron stars that offer the opportunity to detect gravitational waves via the technique known as pulsar timing. Australia has long been a world leader in the discovery and timing of millisecond pulsars, and the Parkes pulsar timing array is one of three major programmes in the world aimed at making the first direct detection of gravitational waves in any frequency band. This p ....An upgraded pulsar timing array for gravitational wave detection. Millisecond pulsars are remarkably regularly-rotating neutron stars that offer the opportunity to detect gravitational waves via the technique known as pulsar timing. Australia has long been a world leader in the discovery and timing of millisecond pulsars, and the Parkes pulsar timing array is one of three major programmes in the world aimed at making the first direct detection of gravitational waves in any frequency band. This project is designed to capitalise on Australia's position of strength in this field by extending the Parkes Pulsar Timing Array dataset (PPTA) so that it has the best chance of detecting gravitational waves in the nanohertz regime until the SKA pathfinders start to come online in 2017.Read moreRead less
Weighing the Universe using fast radio bursts. Fast radio bursts are a newly-discovered astronomical phenomenon whose millisecond-timescale emission occurs at cosmological distances, rendering them exceptional probes of the matter that lies in intergalactic space. This project aims to measure the positions and obtain the distances to these bursts to make a direct measurement of the density of ordinary matter in the Universe, at least 50 per cent of which is believed to remain undetected in inter ....Weighing the Universe using fast radio bursts. Fast radio bursts are a newly-discovered astronomical phenomenon whose millisecond-timescale emission occurs at cosmological distances, rendering them exceptional probes of the matter that lies in intergalactic space. This project aims to measure the positions and obtain the distances to these bursts to make a direct measurement of the density of ordinary matter in the Universe, at least 50 per cent of which is believed to remain undetected in intergalactic space. This project will measure the distribution of this missing matter, and find how it has evolved throughout the history of the Universe. This will provide significant benefits, such as addressing two fundamental questions about our Universe: how much matter does it contain, and has a large fraction of it hitherto evaded detection in intergalactic space?Read moreRead less
...and by opposing, end them: A Comparative Examination of Opposition Processes in Patent Law. Patent law is central to the key Australian economic aim of encouraging an innovative culture. One aspect of patent law, the opposition process, is directly linked to two important issues currently facing our patent system: improving patent quality, and minimising predatory behaviour by powerful firms. This project will assess the operation of the opposition process here, and the practice of equivalent .......and by opposing, end them: A Comparative Examination of Opposition Processes in Patent Law. Patent law is central to the key Australian economic aim of encouraging an innovative culture. One aspect of patent law, the opposition process, is directly linked to two important issues currently facing our patent system: improving patent quality, and minimising predatory behaviour by powerful firms. This project will assess the operation of the opposition process here, and the practice of equivalent international procedures in other jurisdictions, in order to inform Australian policy in current and ongoing negotiations towards global harmonisation. Material from this project will lead directly to proposals for improving the Australian patent system, and ensuring that it promotes, and does not retard, innovation. Read moreRead less